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Lo, Y. - C., Lin, S. - C., Rospigliosi, C. C., Conze, D. B., Wu, C. - J., Ashwell, J. D., Eliezer, D., and Wu, H. (2009) Structural basis for recognition of diubiquitins by NEMO. Mol Cell. 33, 602-15
Coleman, J. A., and Gouaux, E. (2018) Structural basis for recognition of diverse antidepressants by the human serotonin transporter. Nat Struct Mol Biol. 10.1038/s41594-018-0026-8
Chen, P., Tao, L., Wang, T., Zhang, J., He, A., Lam, K. - H., Liu, Z., He, X., Perry, K., Dong, M., and Jin, R. (2018) Structural basis for recognition of frizzled proteins by toxin B. Science. 360, 664-669
Du, J., Kelly, A. E., Funabiki, H., and Patel, D. J. (2012) Structural basis for recognition of H3T3ph and Smac/DIABLO N-terminal peptides by human Survivin. Structure. 20, 185-95
Eichhorn, C. D., Yang, Y., Repeta, L., and Feigon, J. (2018) Structural basis for recognition of human 7SK long noncoding RNA by the La-related protein Larp7. Proc Natl Acad Sci U S A. 115, E6457-E6466
Nguyen, H. An, Hoffer, E. D., Fagan, C. E., Maehigashi, T., and Dunham, C. M. (2023) Structural basis for reduced ribosomal A-site fidelity in response to P-site codon-anticodon mismatches. bioRxiv. 10.1101/2023.01.28.526049
Nguyen, H. An, Hoffer, E. D., Fagan, C. E., Maehigashi, T., and Dunham, C. M. (2023) Structural basis for reduced ribosomal A-site fidelity in response to P-site codon-anticodon mismatches. J Biol Chem. 299, 104608
Seegar, T. C. M., Killingsworth, L. B., Saha, N., Meyer, P. A., Patra, D., Zimmerman, B., Janes, P. W., Rubinstein, E., Nikolov, D. B., Skiniotis, G., Kruse, A. C., and Blacklow, S. C. (2017) Structural Basis for Regulated Proteolysis by the α-Secretase ADAM10.. Cell. 171, 1638-1648.e7
McMillan, B. J., Tibbe, C., Drabek, A. A., Seegar, T. C. M., Blacklow, S. C., and Klein, T. (2017) Structural Basis for Regulation of ESCRT-III Complexes by Lgd. Cell Rep. 19, 1750-1757
Vangaveti, S., Cantara, W. A., Spears, J. L., Demirci, H., Murphy, F. V., Ranganathan, S. V., Sarachan, K. L., and Agris, P. F. (2020) A structural basis for restricted codon recognition mediated by 2-thiocytidine in tRNA containing a wobble position inosine. J Mol Biol. 10.1016/j.jmb.2019.12.016
Zhou, D., Tanzawa, T., Lin, J., and Gagnon, M. G. (2020) Structural basis for ribosome recycling by RRF and tRNA. Nat Struct Mol Biol. 27, 25-32
Ye, Q., Lu, S., and Corbett, K. D. (2021) Structural Basis for SARS-CoV-2 Nucleocapsid Protein Recognition by Single-Domain Antibodies. Front Immunol. 12, 719037
Liu, Z., Zhang, S., Chen, P., Tian, S., Zeng, J., Perry, K., Dong, M., and Jin, R. (2021) Structural basis for selective modification of Rho and Ras GTPases by toxin B. Sci Adv. 7, eabi4582
Reverter, D., and Lima, C. D. (2006) Structural basis for SENP2 protease interactions with SUMO precursors and conjugated substrates. Nat Struct Mol Biol. 13, 1060-8
Li, X., Zhang, R., Draheim, K. M., Liu, W., Calderwood, D. A., and Boggon, T. J. (2012) Structural basis for small G protein effector interaction of Ras-related protein 1 (Rap1) and adaptor protein Krev interaction trapped 1 (KRIT1). J Biol Chem. 287, 22317-27
Ogunjimi, A. A., Zeqiraj, E., Ceccarelli, D. F., Sicheri, F., Wrana, J. L., and David, L. (2012) Structural basis for specificity of TGFβ family receptor small molecule inhibitors.. Cell Signal. 24, 476-83
Liu, H., Chen, X., Focia, P. J., and He, X. (2007) Structural basis for stem cell factor-KIT signaling and activation of class III receptor tyrosine kinases. EMBO J. 26, 891-901
Demirci, H., Murphy, F., Murphy, E., Gregory, S. T., Dahlberg, A. E., and Jogl, G. (2013) A structural basis for streptomycin-induced misreading of the genetic code. Nat Commun. 4, 1355
Krochmal, D., Shao, Y., Li, N. - S., DasGupta, S., Shelke, S. A., Koirala, D., and Piccirilli, J. A. (2022) Structural basis for substrate binding and catalysis by a self-alkylating ribozyme. Nat Chem Biol. 10.1038/s41589-021-00950-z
Ma, J., Lei, H. - T., Reyes, F. E., Sanchez-Martinez, S., Sarhan, M. F., Hattne, J., and Gonen, T. (2019) Structural basis for substrate binding and specificity of a sodium-alanine symporter AgcS. Proc Natl Acad Sci U S A. 10.1073/pnas.1806206116
DasGupta, S., Suslov, N. B., and Piccirilli, J. A. (2017) Structural Basis for Substrate Helix Remodeling and Cleavage Loop Activation in the Varkud Satellite Ribozyme. J Am Chem Soc. 139, 9591-9597
Dong, C., Mao, Y., Tempel, W., Qin, S., Li, L., Loppnau, P., Huang, R., and Min, J. (2015) Structural basis for substrate recognition by the human N-terminal methyltransferase 1. Genes Dev. 29, 2343-8
Uljon, S., Xu, X., Durzynska, I., Stein, S., Adelmant, G., Marto, J. A., Pear, W. S., and Blacklow, S. C. (2016) Structural Basis for Substrate Selectivity of the E3 Ligase COP1. Structure. 24, 687-696
Jost, M., Born, D. A., Cracan, V., Banerjee, R., and Drennan, C. L. (2015) Structural Basis for Substrate Specificity in Adenosylcobalamin-dependent Isobutyryl-CoA Mutase and Related Acyl-CoA Mutases. J Biol Chem. 290, 26882-98
Karasawa, A., and Kawate, T. (2016) Structural basis for subtype-specific inhibition of the P2X7 receptor. Elife. 10.7554/eLife.22153

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